Fundamentals of Semiconductor Physics

A semiconductor is a material that can conduct electricity under certain conditions, used in electronic devices.

A semiconductor is a device that stores electrical energy.

A semiconductor is a non-conductive material used for insulation.

A semiconductor is a type of metal that always conducts electricity.

Intrinsic semiconductors are always doped with impurities.

Intrinsic semiconductors are pure materials, while extrinsic semiconductors are doped with impurities to enhance conductivity.

Extrinsic semiconductors are pure materials with no impurities.

Intrinsic semiconductors have lower conductivity than extrinsic semiconductors.

Dopants reduce the thermal conductivity of semiconductor materials.

Dopants create a vacuum in semiconductor materials.

Dopants enhance the electrical conductivity of semiconductor materials by introducing charge carriers.

Dopants are used to insulate semiconductor materials.

The band gap is the amount of current flowing through a semiconductor.

The band gap is the temperature at which a semiconductor operates.

The band gap is the physical size of a semiconductor material.

The band gap is the energy difference between the valence band and the conduction band in semiconductors.

The Fermi level determines the color of a semiconductor.

The Fermi level is irrelevant to the conductivity of semiconductors.

The Fermi level only applies to metals, not semiconductors.

The Fermi level indicates the energy state of electrons in a semiconductor, influencing its electrical properties and behavior.

Temperature increases conductivity in semiconductors due to more electrons being excited to the conduction band.

Conductivity in semiconductors is only affected by impurities, not temperature.

Temperature has no effect on the conductivity of semiconductors.

Higher temperatures decrease conductivity by reducing electron mobility.

P-type semiconductors have negative charge carriers (holes)

Both P-type and N-type semiconductors have neutral charge carriers

P-type semiconductors have positive charge carriers (holes), while N-type semiconductors have negative charge carriers (electrons).

N-type semiconductors have positive charge carriers (electrons)